Endogenous Fructose Production and Fructokinase Activation Mediate Renal Injury in Diabetic Nephropathy

Diabetes is associated with activation of the polyol pathway, in which glucose is converted to sorbitol by aldose reductase. Previous studies focused on the role of sorbitol in mediating diabetic complications. However, in the proximal tubule, sorbitol can be converted to fructose, which is then met...

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Published inJournal of the American Society of Nephrology Vol. 25; no. 11; pp. 2526 - 2538
Main Authors Lanaspa, Miguel A., Ishimoto, Takuji, Cicerchi, Christina, Tamura, Yoshifuru, Roncal-Jimenez, Carlos A., Chen, Wei, Tanabe, Katsuyuki, Andres-Hernando, Ana, Orlicky, David J., Finol, Esteban, Inaba, Shinichiro, Li, Nanxing, Rivard, Christopher J., Kosugi, Tomoki, Sanchez-Lozada, Laura G., Petrash, J. Mark, Sautin, Yuri Y., Ejaz, A. Ahsan, Kitagawa, Wataru, Garcia, Gabriela E., Bonthron, David T., Asipu, Aruna, Diggle, Christine P., Rodriguez-Iturbe, Bernardo, Nakagawa, Takahiko, Johnson, Richard J.
Format Journal Article
LanguageEnglish
Published United States American Society of Nephrology 01.11.2014
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ISSN1046-6673
1533-3450
1533-3450
DOI10.1681/ASN.2013080901

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Summary:Diabetes is associated with activation of the polyol pathway, in which glucose is converted to sorbitol by aldose reductase. Previous studies focused on the role of sorbitol in mediating diabetic complications. However, in the proximal tubule, sorbitol can be converted to fructose, which is then metabolized largely by fructokinase, also known as ketohexokinase, leading to ATP depletion, proinflammatory cytokine expression, and oxidative stress. We and others recently identified a potential deleterious role of dietary fructose in the generation of tubulointerstitial injury and the acceleration of CKD. In this study, we investigated the potential role of endogenous fructose production, as opposed to dietary fructose, and its metabolism through fructokinase in the development of diabetic nephropathy. Wild-type mice with streptozotocin-induced diabetes developed proteinuria, reduced GFR, and renal glomerular and proximal tubular injury. Increased renal expression of aldose reductase; elevated levels of renal sorbitol, fructose, and uric acid; and low levels of ATP confirmed activation of the fructokinase pathway. Furthermore, renal expression of inflammatory cytokines with macrophage infiltration was prominent. In contrast, diabetic fructokinase-deficient mice demonstrated significantly less proteinuria, renal dysfunction, renal injury, and inflammation. These studies identify fructokinase as a novel mediator of diabetic nephropathy and document a novel role for endogenous fructose production, or fructoneogenesis, in driving renal disease.
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M.A.L., T.I., and C.C. contributed equally to this work.
ISSN:1046-6673
1533-3450
1533-3450
DOI:10.1681/ASN.2013080901